JP2004133354A - Image display system, image display device, image data output device, image display method, image display program and image data output program - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an image display system which smoothly conducts data transfer when image data are transferred from a plurality of terminals and to provide an image display device, an image data output device, an image display method, an image display program and an image data output program. <P>SOLUTION: The image display device is connected to a network, which is capable of conducting mutual communication with a plurality of terminals that accumulate image data, obtains image data from each of the terminals and displays images. The device consists of a display device side communication means which is used to conduct mutual communication with the respective terminals, an image data acquisition control means which controls the display device side communication means in order to obtain image data from a prescribed terminal while executing transmission stop instructions to other terminals so that these terminals stop transmission of image data and an image display means which displays an image based on the obtained image data through the controlling of the image data acquisition control means. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an image display system, an image display device, an image data output device, an image display method, an image display program, and an image data output program.
[0002]
[Prior art]
Conventionally, in this type of image display system, a plurality of terminals are connected to an image display device via a network, and image data is transmitted from the plurality of terminals and displayed on the image display device. (For example, refer to Patent Document 1). In this system, since image data is transmitted from a plurality of image data sources to the image display device, an identifier is assigned to each image data source and a storage area in the image display device is identified in order to efficiently perform data transfer. Is assigned in association with Then, the image data transmitted from each image data source is stored for each assigned area. As a result, when the presentation is performed by displaying the image data transferred from one image data source, the image data can be transmitted from another image data source to the image display device in parallel. In addition, image data can be efficiently transmitted from a plurality of image data sources, and presenters can be smoothly changed when giving a presentation. (Patent Document 1, 48th paragraph)
[0003]
[Patent Document 1]
JP 2001-358919 A
[0004]
[Problems to be solved by the invention]
In the conventional image display system described above, there is a problem that the network becomes a bottleneck and the throughput decreases. That is, the maximum transfer rate of the network is constant, and if image data is transferred in parallel from a plurality of terminals, image data cannot be transferred from another terminal in order to transfer image data from one terminal. It may be retransmitted, or the image data to be transmitted from another terminal may not be properly transferred.
The present invention has been made in view of the above problems, and has an image display system, an image display device, an image data output device, and an image display capable of smoothly performing data transfer when transferring image data from a plurality of terminals. A method, an image display program, and an image data output program are provided.
[0005]
Means for Solving the Problems and Effects of the Invention
In order to achieve the above object, in the present invention, an image display device and a plurality of terminals are connected via a network capable of communicating with each other, and when a specific terminal is transmitting image data, another terminal simultaneously transmits image data. Is not sent. For this purpose, the image display device includes an image data acquisition control unit, and issues a transmission stop instruction to a terminal other than a predetermined terminal that is a source of image data. Each of the plurality of terminals has an image data output control unit, and does not output image data when receiving a transmission stop instruction for itself. The image data output control means outputs the image data when the transmission stop instruction for itself is not issued. That is, the terminal that outputs the image data is a predetermined terminal, and the image data acquisition control unit acquires the image data from the predetermined terminal.
[0006]
Therefore, when image data is transmitted from a plurality of terminals, the number of terminals that actually output data to the network can be limited, and the amount of data output to the network can be reduced. Of course, when a plurality of terminals are the transmission source of the image data, while the other terminal is the specific terminal after the specific terminal finishes the transfer of the image data, the amount of data output to the network can be reduced. Image data can be transferred from all transmission sources to the image display device.
[0007]
Here, all terminals that output image data for displaying an image on the image display device need only be the predetermined terminals at least once. As the simplest aspect of the present invention, if the number of predetermined terminals is always one, the amount of data transmitted to the network can be reduced. However, when the transfer rate of the network is high, two or more terminals are regarded as predetermined terminals. The predetermined terminal may be allowed to output image data at the same time, and the output of image data by other than the predetermined terminal may be stopped. As the transmission stop instruction, it is sufficient that an instruction to stop transmission can be sent while specifying the terminal that issues the instruction, and various modes can be adopted. For example, when performing packet communication, it is possible to adopt a mode in which data for specifying the destination terminal is described in the header of the data packet, and a transmission stop command understandable by each terminal is described as the content of the transmission data. .
[0008]
Note that, in the present invention, the image display device includes a display device-side communication unit, and each of the plurality of terminals includes a terminal-side communication unit, and mutual communication is realized by these communication units. In each communication means, it is sufficient that mutual communication between the image display device and the terminal can be realized, and the communication lines, protocols, standards, and the like are not limited. For example, any of a wired network and a wireless network may be used, various protocols such as TCP and UDP may be adopted, and various standards such as Ethernet (Ethernet is a registered trademark of Fuji Xerox Co., Ltd.), IEEE 1394, USB, etc. However, it is feasible.
[0009]
As the image display device, various devices for displaying an image can be adopted. The display mode of the image is not particularly limited. Various devices, such as a plasma display, a CRT, and a liquid crystal display, which display an image on a display surface of a projector or a device that projects an image on a screen or the like, can be employed. A presentation is given as an example of a mode for displaying images from a plurality of terminals, and in this sense, various devices that display large images are preferable. The terminal only needs to be able to accumulate image data and output the image data as appropriate, and a general-purpose computer, various recording / reproducing devices (such as video), and the like can be employed.
[0010]
The present invention can be specified as an image display system including an image display device and a plurality of terminals, or the image display device or each terminal can be individually specified as an invention. In an image display device that acquires image data from a plurality of terminals and displays an image, a mode in which images from a plurality of terminals are displayed on one screen and an image from each terminal on a single screen are used as one image. It is convenient if it is possible to switch between the individual display modes.
[0011]
Therefore, if the image display device is provided with a mode switching unit, it is possible to switch between the divided display mode and the sequential display mode, and it is possible to use a mode suitable for the needs of the user. Various configurations can be adopted as the configuration for switching the mode. For example, a configuration in which a mode switching button is provided on the image display apparatus main body or a mode that can be switched by a remote control operation can be employed. In addition, a configuration may be such that a mode switching instruction can be executed from a plurality of terminals. For example, a mode switching command may be transmitted from each terminal via the network, and the mode may be switched when the image display device receives the command.
[0012]
The split display mode only needs to be able to display an image based on each image data output from a plurality of terminals in each of the divided areas set by dividing one screen. With this configuration, a presentation or the like using a plurality of images can be performed. The manner of dividing the screen is not particularly limited, and the screen may be equally divided, or the main screen may be displayed large and the sub-screen may be displayed small. The number of divisions is not limited. When performing a presentation using a plurality of images, it is rare to use all of the images in the divided regions at the same time for explanation, and the images in each divided region are often switched one by one.
[0013]
In the present invention, when acquiring images from a plurality of terminals, the image display device acquires image data from a predetermined terminal, and acquires image data from another terminal after completing the acquisition of the image data. Therefore, if one of the images in the divided area is switched one by one, transmission from a terminal other than the terminal that outputs the image data of the switched image can be prohibited, and the necessary data can be obtained quickly. it can. In addition, since image data of an image that is not switched is not transmitted, unnecessary data is not transmitted on the network.
[0014]
As the sequential display mode, images based on each image data output from a plurality of terminals may be displayed on one screen, and these may be switched freely. With this configuration, a presentation or the like using images output from a plurality of terminals can be freely performed. In this case as well, only the image data of the display image is acquired, and the image data of the image not displayed is not transmitted over the network, so that unnecessary data is not transmitted over the network. As a result, the load on the network is reduced, and necessary data can be obtained quickly. Note that in any mode, the image may be switched by using a button formed on the image display device, a remote controller, or the like.
[0015]
As a preferable configuration in the divided display mode, image data of an image to be displayed in a divided region may be sequentially acquired. At this time, the terminal which outputs the image data without stopping the output of the image data (the predetermined terminal) is sequentially switched. That is, when the output of the image data is completed by one terminal, a transmission stop instruction is given to the terminal. In this case, the transmission stop instruction may not be issued to the other terminals. Needless to say, a configuration in which a transmission start instruction is newly sent to a predetermined terminal in order to realize a state in which the transmission stop instruction is not performed can be adopted. With such a configuration, it is possible to limit the terminals that transmit data on the network, and to acquire each image data of each image displayed in the divided area while keeping the network load low.
[0016]
As a preferable configuration in the sequential display mode, a specific terminal may be a terminal that outputs image data (the above-mentioned predetermined terminal) and the terminal may continue to acquire image data until the terminal of the transmission source is switched. good. As a result, only the image data of the image displayed on the image display device can be output to the network. Of course, the terminal that has not received the transmission stop instruction continues to output image data. Even if the acquisition or output of the image data is continued, if the image is a still image, the image data is transmitted for one screen and waits, and the image data is acquired / output when an instruction to display the next screen is given. If a moving image is to be displayed, the output of the image data is continued until the transmission terminal is switched. Of course, when the data exceeds the buffer in the image display device, the data transmission is not performed until the data exceeds the buffer, and the data transmission waits.
[0017]
Here, it goes without saying that the above-described image display system also functions by a method in which the image display device and the terminal perform predetermined steps in time series. Therefore, the invention can be configured as an image display method as in the invention described in claim 7, and can be configured to correspond to claims 2 to 6. In addition, such an image display system may exist alone, or may be used in a state of being incorporated in a certain device. For example, the idea of the invention is not limited to this, but includes various aspects. . Therefore, it can be changed as appropriate, such as software or hardware.
[0018]
In the case of software of an image display system as an embodiment of the idea of the present invention, there is naturally a program for realizing such a function. The inventions according to claims 8 and 9 are an image display program and an image data output program that realize the above-described functions by being executed in the image display device and each terminal. Needless to say, a configuration corresponding to claims 2 to 6 can also be adopted here.
[0019]
BEST MODE FOR CARRYING OUT THE INVENTION
Here, embodiments of the present invention will be described in the following order.
(1) Configuration of image display system:
(2) Processing contents of the projector:
(3) Processing details of each terminal:
(4) Operation of the image display system:
(5) Other embodiments:
[0020]
(1) Configuration of image display system:
FIG. 1 is a configuration diagram of an image display system according to the present invention. In FIG. 1, an image display system 10 includes a plurality of PCs 20 and a projector 30. The image data output from each PC 20 is acquired by the projector 30, and the projector 30 projects and displays an image based on the image data. . In the present embodiment, the plurality of PCs 20 and the projector 30 form a LAN via a UTP cable and can communicate with each other.
[0021]
The plurality of PCs 20 and the projector 30 communicate with each other by a TCP protocol, and the PC 20 and the projector 30 exchange packets with each other to establish a connection. Each image data is divided into packets as necessary and transmitted. Is done. In FIG. 1, a plurality of PCs 20 are shown as PC1 to PC4, and the configuration of PC1 is shown as a block diagram. Note that an image display system can be realized by the same configuration as PC2 to PC4.
[0022]
A general-purpose computer can be used as the PC 20, and can control a predetermined I / F, a recording medium, and the like under the control of a predetermined OS, and can execute a predetermined program. The PC 20 includes a network I / F 21, a control unit 22, an image transmission module 23, and a hard disk drive (HDD) 24 to configure the image display system according to the present invention. The control unit 22 controls the network I / F 21 to communicate with the projector 30. That is, it interprets the command described in the packet received via the network I / F 21 and transmits and receives data.
[0023]
In the present embodiment, a transmission stop request, a transmission request for one screen of image data, and a continuous request for image data transmitted from the projector 30 are acquired, and the image transmission module 23 is controlled to output image data as appropriate. The HDD 24 is a storage medium capable of storing various data, and stores image data 24a of a presentation image prepared in advance. The image transmission module 23 acquires the image data 24a and outputs the image data 24a to the projector 30 according to an instruction from the control unit 22.
[0024]
The projector 30 can also execute a predetermined program by controlling a predetermined I / F, a recording medium, and the like under the control of a predetermined OS. To configure the image display system according to the present invention, the projector 30 includes a network I / F 31, a control unit 32, an image receiving module 33, an HDD 34, a display unit 35, and a remote control signal receiving unit 36. The control unit 32 communicates with the projector 30 by controlling the network I / F 31. That is, it interprets the command described in the packet received via the network I / F 31 and transmits and receives data.
[0025]
In this embodiment, the control unit 32 outputs a transmission stop request, a transmission request for image data for one screen, and a continuous request for image data to the PC 20. With this configuration, necessary image data can be appropriately acquired while suppressing the amount of data transmitted on the network. Further, the control unit 32 controls the image receiving module 33 to acquire image data for one screen output from each PC 20 or image data to be continuously transmitted, and record the acquired image data in the HDD 34 (image data 34a).
[0026]
The control unit 32 controls the display unit 35 to display various images based on the image data 34a. That is, the control unit 32 determines the brightness of each color of each pixel based on the data of each pixel indicated by the image data 34a and controls the display unit 35, and the display unit 35 controls the display unit 35 on an external screen via a lens according to this control. An image is displayed by projecting light. When determining the brightness of each color of each pixel of the screen display screen, the control unit 32 divides the screen display screen into a plurality of regions, and arranges and displays an image based on the image data from each PC 20 in each of the divided regions. It is possible. Of course, it is also possible to arrange and display an image based on the image data from each PC 20 on the entire screen display screen.
[0027]
The projector 30 according to the present embodiment includes a remote control signal receiving unit 36, a signal output by a remote control (not shown) is received by the remote control signal receiving unit 36, and the control unit 32 grasps the operation content of the remote control. The remote controller can issue a screen switching instruction, and the control unit 32 sequentially switches the screen according to the screen switching instruction. That is, an instruction is issued to the PC 20 of the image data source to output the image data after switching, and the image data is acquired and displayed on the display unit 35. With this configuration, the user can give a presentation while switching the screen by operating the remote controller.
[0028]
Further, the remote controller can issue a mode switching instruction. The projector 30 according to the present embodiment has a split display mode and a sequential display mode. In the divided display mode, the control unit 32 controls the display unit 35 to divide one screen into a plurality of regions, and displays an image based on the image data from each PC 20 in each divided region as described above. Thus, a presentation or the like can be performed while simultaneously presenting a plurality of screens to the viewer.
[0029]
In the sequential display mode, an image based on each image data output from a plurality of terminals is displayed on one screen, and the source PC 20 can be sequentially switched according to the operation of the remote controller. When the transmission source PC 20 is switched, the control unit 32 stops communication with another PC 20, acquires image data only from the PC 20, and displays the image data on the display unit 35. As a result, only the necessary image data is output on the network, and a presentation or the like using the image data transmitted from the plurality of PCs 20 can be performed while the load on the network is suppressed.
[0030]
(2) Processing contents of the projector:
Hereinafter, the processing of the control unit 32 in the projector 30 will be described in detail with reference to the flowchart shown in FIG. In the present embodiment, the mode is set in advance before the screen projection by the projector 30 is started. The control unit 32 establishes a connection with each of the PCs 20 connected to the network in advance. Then, in step S100, it is determined whether or not one PC 20 has established a connection via the network. If it is determined in step S100 that only one PC 20 has established the connection, in step S160, the image receiving module 3 is controlled to communicate with only one PC 20 having established the connection, and And display the image on the display unit 35.
[0031]
When it is not determined that one PC 20 has established the connection in step S100, a plurality of PCs 20 are connected to the network and can communicate with the projector 30, so that the current mode is determined in step S110. If it is determined in step S110 that the preset mode is the split display mode, a packet instructing to stop transmission is output to all the PCs 20 to which the connection has been established in step S120. As a result, the image data is no longer output from the PC 20 to the network.
[0032]
In step S130, the image receiving module 33 is controlled to request each PC 20 to transmit image data one by one. That is, in the divided display mode, the images to be displayed in the respective divided areas are output from the respective PCs 20. Therefore, a transmission request is sent to a specific PC 20, communication with only the PC 20 is performed, image data for one screen of each divided area is acquired, and the operation of stopping transmission is repeated for the number of divided areas. As a result, when acquiring image data of all images to be displayed in the divided areas, it is possible to prevent data from being transmitted from a plurality of PCs 20 to the network at the same time, and to reduce the image load of each divided area while keeping the network load low. Data can be obtained.
[0033]
When it is determined in step S110 that the preset mode is the sequential display mode, the image data of the image to be displayed by the projector 30 is transmitted to a PC other than the predetermined PC 20 storing the image data in step S140. Make a stop request. In step S150, the image receiving module 33 is controlled to make a transmission request to a predetermined PC 20 storing image data of an image to be displayed by the projector 30, and perform communication only with the PC 20.
[0034]
At this time, the image receiving module 33 may acquire image data for one screen, and may acquire additional data for one screen each time a screen switching instruction is given by the remote control signal receiving unit 36, or may be used to reproduce a moving image. May be obtained continuously. In any case, the configuration in which image data is acquired only from the predetermined PC 20 prevents simultaneous transmission of data over a network from a plurality of PCs 20 and enables acquisition of image data while keeping the network load low. it can.
[0035]
(3) Processing details of each terminal:
Hereinafter, the processing of the control unit 22 in each PC 20 will be described in detail with reference to the flowchart shown in FIG. The control unit 22 of each PC 20 establishes a connection with the projector 30 before outputting image data. Then, each PC 20 executes the processing shown in FIG. 3 while waiting in a state where image data to be displayed by the projector 30 can be output. In step S200, the control unit 22 monitors the network I / F 21. That is, it is determined whether or not a packet indicating any request to itself has been received from projector 30.
[0036]
If it is determined in step S200 that a packet indicating any request has been received from projector 30, it is determined in step S210 whether a transmission stop request has been made. If it is determined in step S210 that the transmission stop request has been made, the image transmission module 23 is controlled in step S220 to stop the packet transmission. Even if the PC is a terminal that outputs image data for displaying an image in one of the divided areas, the transmission is temporarily stopped, and the transmission waits by repeating the processing of step S200.
[0037]
If it is determined in step S210 that a transmission stop request has not been made, it is determined in step S230 whether a transmission request for one screen has been made. If it is determined in step S230 that a transmission request for one screen has been made, the control unit 22 controls the image transmission module 23 to output image data for one screen in step S240. If it is not determined in step S230 that a transmission request for one screen has been made, it is determined in step S250 whether a continuous image data transmission request has been made.
[0038]
When it is determined in step S250 that a continuous image data transmission request has been made, the control unit 22 controls the image transmission module 23 to continuously transmit image data in step S260. In the present embodiment, since it is determined in advance whether or not a transmission stop request has been made in step S210, image data of other than the PC 20 that has made a transmission request for itself is determined by the above processing until a transmission request is made. It will wait for transmission. Therefore, it is possible to output only necessary data to the network while suppressing the load on the network.
[0039]
(4) Operation of the image display system:
Next, the operation of the image display system realized by the above configuration and processing will be described with reference to the examples shown in FIGS. FIG. 4 shows an example in which the screen display screen is divided into approximately four equal parts in the divided display mode to form divided areas, and an image based on the image data output by PC1 to PC4 shown in FIG. 1 is displayed for each divided area. I have. In a situation where an image based on the image data output from PC1 to PC4 is displayed for each divided area, the user operates the remote controller (not shown) to switch each image of PC1 and PC2 to the next image. Will be described.
[0040]
At this time, the projector 30 determines that the display mode is the split display mode in step S110, and issues a transmission stop request to all PCs in step S120. PC1 to PC4 determine that a transmission stop request has been made in step S210, and perform transmission stop processing in step S220. That is, the output data from PC1 to PC4 does not exist on the network. Further, the projector 30 requests the PC 1 to transmit one screen of image data in step S130. The PC 1 determines in step S230 that a transmission request for one screen has been made, and transmits the image data for one screen in a plurality of packets.
[0041]
When the transmission of the image data output from the PC 1 is completed, a request for transmitting the image data for one screen is further made to the PC 2 in step S130. The PC 2 determines in step S230 that there is a transmission request for one screen, and transmits the image data for one screen in a plurality of packets. FIG. 4 schematically shows each packet, and the packet of the image data output from the PC1 and the packet of the image data output from the PC2 are not output at the same time, but are transmitted in order.
[0042]
Generally, when data is output from PC1 and PC2 at the same time, while PC1 is transmitting a packet, PC2 also continues to output a packet, and the packet of PC1 is properly received by projector 30 to reduce the load on the network. When the number is reduced, the packet of PC2 is transmitted by interrupting the packet of PC1. Therefore, this time, the PC 1 waits for transmission and continues to output packets. Generally, this processing makes it possible to simultaneously transmit data from a plurality of PCs. However, the network load increases by repeatedly establishing a connection and inquiring whether data transmission is possible.
[0043]
In particular, when transmitting large-capacity image data, image data transfer is slow even if the image data receiving side (projector 30 in the present embodiment) has sufficient processing capacity as a resource. Processing does not proceed smoothly. However, in the present embodiment, since the image data from each PC is transmitted in order as shown in FIG. 4, the load on the network is always small, and necessary data can be transferred at high speed. According to such a configuration, it is possible to reduce the time required from the start of transmission to the end of transmission of the same capacity as compared with the configuration in which data is simultaneously output from PC1 and PC2.
[0044]
In the sequential display mode shown in FIG. 5, it is possible to switch and display an image based on the image data output from PC1 to PC4 shown in FIG. That is, as shown in the figure, when an image based on the image data output from PC1 is displayed, it is possible to switch to an image based on the image data output from PC2 to PC4. However, when displaying an image based on the image data output by the PC1, the transmission stop instruction is issued to the other PC2 to PC4, and the PC2 to PC4 do not output the image data at the same time as the PC1.
[0045]
That is, the projector 30 determines that the display mode is the sequential display mode in step S110, and issues a transmission stop request to a device other than the PC 1 in step S140. The PC2 to PC4 determine that a transmission stop request has been made in step S210, perform a transmission stop process in step S220, and continue the processing of step S200 and thereafter to wait until a transmission request is received. Further, in step S150, the projector 30 requests the PC 1 to transmit one screen of image data or a continuous transmission of image data. The PC 1 determines that there is a transmission request in step S230 or step S250, and divides image data for one screen or image data to be transmitted into a plurality of packets and transmits them.
[0046]
By the above-described processing, control is performed so that the other PCs 2 to 4 do not output image data when an image based on the image data output by the PC 1 is displayed. When the user gives an instruction to switch the image transmission source using the remote controller, and displays an image of the image data output from the PC 2, for example, the projector 30 gives an instruction to stop transmission to other than the PC 2 in step S140, and the same as above. Is performed. Therefore, the projector 30 can display an image based on the image data output from the PC 2. PC1, PC3, and PC4 do not output image data in response to the transmission stop instruction. Therefore, only image data necessary for image display is output to the network, and the load on the network can be reduced at all times. Further, since the necessary image data is sequentially acquired, the projector 30 does not need a large storage capacity.
[0047]
(5) Other embodiments:
The above embodiment is an example of realizing the image display system, the image display device, the image data output device, the image display method, the image display program, and the image data output program according to the present invention, and of course, other configurations can be adopted. It is. For example, the image display device is not limited to a projector, but may be a PDP, CRT, liquid crystal display device, or the like. Although an image display device having a large screen is preferable in terms of giving a presentation, the application of the present invention is not limited to a presentation. For example, a configuration in which a screen is divided and a monitoring image output from a plurality of cameras is displayed on each divided screen, or a screen is output from a plurality of cameras on a display device that can be switched at predetermined time intervals or by a user instruction It is also possible to apply the present invention to a configuration in which surveillance images are sequentially displayed.
[0048]
Furthermore, in the split display mode, it is not essential to divide the screen equally as shown in FIG. For example, a configuration in which display is performed on each of a large main screen and a plurality of small sub-screens may be employed. In this case, an image according to the purpose of the presentation is displayed on the main screen so that the audience is always aware of the purpose of the talk, and the sub-screen is used to show data and the like in order to provide various explanations in the details of the presentation. You can give an easy-to-understand presentation. Of course, the display content of the main screen and the display content of the sub-screen can be appropriately switched.
[0049]
Furthermore, the image display device and the plurality of terminals need only be connected via a network, and the specific form of the network is not limited. As described above, a LAN may be used, or a projector and a plurality of terminals may be connected using the Internet or the like. According to this configuration, it is possible to give a presentation or the like using images of a plurality of image providers located at distant positions. The network line is not limited to wired / wireless.
[0050]
Furthermore, a configuration for switching between the split display mode and the sequential display mode by mode selection as described above is not essential, and it can be said that the present invention is also used for a projector having one of the modes. As a mode discrimination method, instead of discriminating a preset mode, a configuration may be used in which the mode is discriminated from the screen configuration currently being displayed or the number of PCs occupying the screen. Various configurations can also be adopted as the configuration for determining the number of PCs that have established a connection in step 100, and the number of PCs that have returned may be measured by performing broadcast communication. A configuration may be used in which the fact that a connection request is made from a PC is stored, and the number of PCs that have made a connection request is measured. Further, the communication protocol is not limited to TCP, and may be UDP. Of course, other protocols may be used.
[Brief description of the drawings]
FIG. 1 is a configuration diagram of an image display system according to the present invention.
FIG. 2 is a flowchart of a process in the projector.
FIG. 3 is a flowchart of a process in a PC.
FIG. 4 is an explanatory diagram illustrating an operation of the image display system.
FIG. 5 is an explanatory diagram illustrating an operation of the image display system.
[Explanation of symbols]

Claims (9)

An image display device that displays an image and a plurality of terminals that store image data of the image to be displayed are connected via a network capable of communicating with each other, and image data is output from each terminal to the image display device and displayed. An image display system,
The image display device,
Display device-side communication means for performing mutual communication with each of the plurality of terminals;
When the display device side communication means is controlled to obtain image data from a predetermined terminal, a transmission stop instruction is issued to another terminal to stop image data transmission and obtain image data from the predetermined terminal. Image data acquisition control means,
Image display means for displaying an image based on the image data acquired by the control in the image data acquisition control means,
Each of the plurality of terminals,
A predetermined storage medium for storing the image data,
Terminal-side communication means for performing mutual communication with the image display device;
The terminal-side communication stops output of image data when the terminal corresponds to the terminal for which the transmission stop instruction has been issued by the image data acquisition control unit, and outputs the image data when the terminal does not correspond to the terminal for which the transmission stop instruction has been issued. And an image data output control means for controlling the means. An image display device connected to a plurality of terminals that store image data through a network capable of communicating with each other, and acquiring and displaying image data from each terminal,
Display device-side communication means for performing mutual communication with each of the plurality of terminals;
When the display device side communication means is controlled to obtain image data from a predetermined terminal, a transmission stop instruction is issued to another terminal to stop image data transmission and obtain image data from the predetermined terminal. Image data acquisition control means,
An image display device, comprising: image display means for displaying an image based on image data acquired by control of the image data acquisition control means. Split display mode that divides one screen and displays images based on each image data output by multiple terminals, displays images based on each image data output by multiple terminals on one screen, and sequentially transmits terminal terminals A mode switching unit for switching between a sequential display mode and a switchable sequential display mode, wherein the image display unit displays an image based on each of the image data in the divided display mode in each divided area on one screen, and displays each image data in the sequential display mode. The image display device according to claim 2, wherein an image based on the image is displayed on one screen. The image data acquisition control means sequentially acquires the image data of the image to be displayed in each divided area as the predetermined terminal with each terminal storing the image data of the image to be displayed in each divided area in the divided display mode. 4. The image display device according to claim 3, further comprising controlling the display device side communication means. The image data acquisition control means controls the display device side communication means so as to continue acquiring image data using a specific terminal as the predetermined terminal until the terminal of the transmission source is switched in the sequential display mode. The image display device according to claim 3 or 4, wherein An image data output device that is connected to an image display device that displays an image and that is connected to a network that can communicate with each other, outputs image data to the image display device, and displays an image.
A predetermined storage medium for storing the image data,
Terminal-side communication means for performing mutual communication with the image display device;
The transmission stop instruction output from the image display device is acquired, and it is determined whether the transmission stop instruction is issued to the terminal. If the transmission stop instruction corresponds to the terminal to which the transmission stop instruction is issued, the image data output is stopped, and the transmission stop instruction An image data output device comprising: image data output control means for controlling the terminal-side communication means so as to output the stored image data when the terminal does not correspond to the terminal on which the operation has been performed. An image display device that displays an image and a plurality of terminals that store image data of the image to be displayed are connected via a network capable of communicating with each other, and image data is output from each terminal to the image display device and displayed. An image display method for
When acquiring image data from a predetermined terminal, an instruction to stop transmission of image data is issued to another terminal, and output of image data is stopped at a terminal to which transmission stop instruction is issued, and transmission stop instruction is not issued. An image display method comprising: outputting image data from a predetermined terminal; acquiring image data from the predetermined terminal by an image display device; and displaying an image based on the acquired image data. An image display program for controlling an image display device that is connected to a plurality of terminals storing image data through a network capable of communicating with each other and acquires and displays image data from each terminal,
A display device-side communication function for performing mutual communication with each of the plurality of terminals;
When the display device side communication function is controlled to obtain image data from a predetermined terminal, transmission of an image is instructed to another terminal to obtain image data from the predetermined terminal while stopping transmission of the image data. Image data acquisition control function
An image display program for causing a computer to realize an image display function of displaying an image based on image data acquired by control of the image data acquisition control function. An image data output program connected to a network capable of communicating with an image display device that displays an image and controlling a terminal that outputs image data to the image display device and displays an image,
A predetermined storage medium for storing the image data,
A terminal-side communication function for performing mutual communication with the image display device;
The transmission stop instruction output from the image display device is acquired, and it is determined whether the transmission stop instruction is issued to the terminal. If the transmission stop instruction corresponds to the terminal to which the transmission stop instruction is issued, the image data output is stopped, and the transmission stop instruction An image data output program for causing a computer to realize an image data output control function of controlling the terminal-side communication function so as to output the stored image data when the terminal does not correspond to the terminal on which the operation has been performed.

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